Biology 102 - PowerPoint PPT Presentation

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Biology 102

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Biology 102 Patterns of Inheritance (cont.) – PowerPoint PPT presentation

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Title: Biology 102


1
Biology 102
  • Patterns of Inheritance (cont.)

2
Lecture outline
  • Inheritance of multiple traits
  • Same chromosome (linkage)
  • Sex chromosomes
  • Overview
  • Sex linkage
  • Incomplete dominance
  • Codominance
  • Other variations
  • Sickle cell anemia example
  • Pedigrees

3
Crosses with two traits
  • If genes are on different chromosomes, they sort
    independently

4
Genes on the same chromosome tend to be inherited
together
  • They are on the same chromosome. Considered to
    be linked.

5
Recombination creates new combination of linked
alleles
  • The farther away two genes are on a chromosome
    from each other, the more likely they will be
    exchanged during crossing over
  • The closer together two genes are on a
    chromosome, the more likely they will travel
    together

6
Sex chromosomes
  • Differ in appearance
  • Only small parts are homologous (carrying same
    genes)
  • Sex-linked genes
  • Found only on one of the sex chromosomes
  • Only 20 genes on Y
  • Related to male characteristics
  • 1500 genes on X
  • Related to a variety of traits (few are
    gender-related)

7
Sex determination
  • Male determines the gender in mammals
  • How so?
  • Birds are the opposite
  • Females XY, Males XX

8
Sex-linked inheritance Eye color in fruit flies
9
Incomplete dominance
  • Snapdragon example
  • Heterozygote is intermediate between the two
    homozygotes
  • R codes for enzyme catalyzing production of red
    pigment
  • R codes for non-functional enzyme
  • Amount of enzyme determines amount of pigment

10
Human eye colorPolygenic, incomplete dominance
11
Codominance
  • Both phenotypes expressed fully.
  • Example Human blood groups
  • These genes code for enzymes that stick sugars to
    cell-surface glycoproteins
  • Alleles A and B code for addition of distinct
    sugars
  • O does not code for a sugar
  • Make antibodies to sugars not present on own
    cells

12
Human Blood Types
  • Freq
  • Donates
  • Re-ceives
  • Anti-bodies
  • RBCs
  • Genotype
  • Type
  • 40
  • A or AB
  • A or O
  • B
  • AA or AO
  • A
  • 10
  • B or AB
  • B or O
  • A
  • BB or BO
  • B
  • 4
  • AB
  • AB, A,B, O(universal)
  • Neither
  • AB
  • AB
  • 46
  • O,AB,A,B(universal)
  • O
  • Both
  • OO
  • O

13
Other variations
  • Environmental influences
  • Expression of gene for black pigment in Himalayan
    rabbit depends upon temperature
  • Most traits affected by both genes and
    environment
  • Pleitropy
  • Multiple effects of a single gene
  • Example Sickle cell anemia
  • Also great example from single error in a single
    nucleotide to whole organism effect

14
Some human genetic diseases
  • Sickle-cell anemia A case of incomplete
    dominance
  • Go from gene to whole organism effects

15
Sickle cell anemia From amino acid substitution
to whole body effects
  • A single nucleotide is substituted in 18th
    position of B-chain of Hb molecule (6th amino
    acid)
  • GUG instead of GAG
  • Altered primary protein structure
  • Valine instead of Glutamic acid
  • Altered tertiary structure
  • Altered quaternary protein structure
  • Chains dont fit together correctly

16
Sickle cell anemia From amino acid substitution
to whole body effects
  • Hemoglobin molecules stick together
  • Red blood cell shape is altered

17
Sickle cell anemia (cont.)
  • Whole body effects (symptoms of sickle cell
    anemia)

18
Investigating human genetic disorders
  • Pedigrees Use to figure out how trait is
    inherited (dominant, recessive, sex-linked)
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